Piia Simonen

Cholesterol synthesis is increased and absorption decreased in non-alcoholic fatty liver disease independent of obesity

BACKGROUND & AIMS Non-alcoholic fatty liver disease (NAFLD) is associated with impaired glucose and lipoprotein metabolism. However, the metabolism of cholesterol in NAFLD remains unexplored. We investigated how fatty liver influences cholesterol metabolism in 242 non-diabetic subjects. METHODS Liver fat content was measured with proton magnetic resonance spectroscopy. Cholesterol metabolism was assayed with serum non-cholesterol sterols, surrogate markers of cholesterol synthesis and absorption. The analyses were performed with gas-liquid chromatography. RESULTS A total of 114 subjects had NAFLD and 128 subjects had normal liver fat content. Non-cholesterol sterols reflecting cholesterol synthesis (cholestenol, desmosterol, and lathosterol) were higher, and those reflecting cholesterol absorption (cholestanol and plant sterols) were lower in subjects with NAFLD than in controls, independent of body mass index. Liver fat content was positively associated with markers of cholesterol synthesis (r = from 0.262 to 0.344, p < 0.001 for all) and inversely associated with markers of cholesterol absorption (r = from -0.299 to -0.336, p < 0.001 for all). In the entire study group, synthesis and absorption markers were interrelated, indicating that the homeostasis of cholesterol metabolism was maintained. LDL cholesterol was similar in the two groups. CONCLUSIONS We demonstrated that although LDL cholesterol concentrations are unchanged, cholesterol metabolism in NAFLD is characterized by increased synthesis and diminished absorption of cholesterol. These changes are associated with liver fat content independent of body weight.

Insulin sensitivity regulates cholesterol metabolism to a greater extent than obesity: lessons from the METSIM Study

Cholesterol synthesis is upregulated and absorption downregulated in insulin resistance and in type 2 dia-betes. We investigated whether alterations in cholesterol metabolism are observed across the glucose tolerance status, from normoglycemia through impaired glucose tolerance to type 2 diabetes, in 781 randomly selected men 45 to 70 years of age from a population-based Metabolic Syndrome in Men Study. Cholesterol metabolism was assayed using surrogate serum markers, squalene, and noncholesterol sterols. The study population was classified into subgroups according to glucose tolerance as follows: normoglycemia, impaired fasting glucose, impaired glucose tolerance, and type 2 diabetes. LDL cholesterol did not differ between the groups. Cholesterol synthesis markers were lowest and absorption markers highest in normoglycemia. Sitosterol was lower in subjects with impaired fasting glucose compared with normoglycemic subjects (113 ± 7 vs. 136 ± 3 102 μmol/mmol of cholesterol, P < 0.05). LDL cholesterol was not associated with lathosterol/sitosterol ratio, a marker of cholesterol metabolism. Peripheral insulin sensitivity evaluated by the Matsuda index was associated with the lathosterol/sitosterol ratio in the entire population (r = −0.457, P < 0.001) and with that of lathosterol/cholestanol independently of obesity. In conclusion, cholesterol metabolism was altered already from subjects with impaired fasting glucose. Upregulated cholesterol synthesis was associated with peripheral insulin resistance independent of obesity.

Acute effects of weight reduction on cholesterol metabolism in obese type 2 diabetes

BACKGROUND Weight reduction in obese type 2 diabetes increases the absorption efficiency of cholesterol and serum plant sterol levels from baseline. However, there is no information on the effects of acute restriction of calories and lack of dietary cholesterol and plant sterols on serum cholesterol precursor and plant sterols and on cholesterol metabolism. Thus, 10 obese (BMI>30 kg/m(2)) type 2 diabetes subjects consumed very low energy diet virtually free of cholesterol, cholestanol and plant sterols for 3 months. METHODS Serum sterols were measured with gas-liquid chromatography. RESULTS Body weight was reduced by 15.5+/-1.7 kg (p<0.001), serum cholesterol by 21+/-3%, triglycerides 45+/-5%, glucose 23+/-3%, insulin 59+/-5% and HbAIc by 8+/-2%, whereas serum sex hormone binding globulin increased by 108+/-25% (p<0.05-0.001 for all). Serum desmosterol and lathosterol to cholesterol ratios (indicators of cholesterol synthesis) were significantly decreased by 20% suggesting that cholesterol synthesis was suppressed. Serum squalene ratio was unchanged. Despite lack of dietary plant sterols and cholestanol, serum campesterol and sitosterol ratios (indicators of cholesterol absorption efficiency) only tended to decrease, whereas serum cholestanol ratio, also an absorption indicator, was increased by 33+/-3% (p<0.001), and its ratios to campesterol and sitosterol were increased by 60% and 31%, suggesting that sterol absorption efficiency might have been increased and their turnover reduced. CONCLUSIONS In obese type 2 diabetes, restriction of calories and dietary sterols improved markedly control of diabetes, decreased serum cholesterol precursor sterols suggesting that cholesterol synthesis was decreased, but only tended to decrease serum values of plant sterols probably due to their release from the adipose tissues associated with their impaired turnover.

The metabolism of plant sterols is disturbed in postmenopausal women with coronary artery disease.

In postmenopausal coronary artery disease (CAD) women, serum plant sterols are elevated. Thus, we investigated further whether serum plant sterols reflect absolute cholesterol metabolism in CAD as in other populations and whether the ABCG5 and ABCG8 genes, associated with plant sterol metabolism, were related to the risk of CAD. In free-living postmenopausal women with (n = 47) and without (n = 62) CAD, serum noncholesterol sterols including plant sterols were analyzed with gas-liquid chromatography, cholesterol absorption with peroral isotopes, absolute cholesterol synthesis with sterol balance technique, and bile acid synthesis with quantitating fecal bile acids. In CAD women, serum plant sterol ratios to cholesterol were 21% to 26% (P < .05) higher than in controls despite similar cholesterol absorption efficiency. Absolute cholesterol and bile acid synthesis were reduced. Only in controls were serum plant sterols related to cholesterol absorption (eg, sitosterol; in controls: r = 0.533, P < .001; in CAD: r = 0.296, P = not significant). However, even in CAD women, serum lathosterol (relative synthesis marker) and lathosterol-cholestanol (relative synthesis-absorption marker) were related to absolute synthesis and absorption percentage (P range from .05 to <.001) similarly to controls. Frequencies of the common polymorphisms of ABCG5 and ABCG8 genes did not differ between coronary and control women. In conclusion, plant sterol metabolism is disturbed in CAD women; so serum plant sterols only tended to reflect absolute cholesterol absorption. Other relative markers of cholesterol metabolism were related to the absolute ones in both groups. ABCG5 and ABCG8 genes were not associated with the risk of CAD.

Phytosterols, Phytostanols, and Lipoprotein Metabolism

The efficacy of phytosterols and phytostanols added to foods and food supplements to obtain significant non-pharmacologic serum and low density lipoprotein (LDL) cholesterol reduction is well documented. Irrespective of age, gender, ethnic background, body weight, background diet, or the cause of hypercholesterolemia and, even added to statin treatment, phytosterols and phytostanols at 2 g/day significantly lower LDL cholesterol concentration by 8%–10%. They do not affect the concentrations of high density lipoprotein cholesterol, lipoprotein (a) or serum proprotein convertase subtilisin/kexin type 9. In some studies, phytosterols and phytostanols have modestly reduced serum triglyceride levels especially in subjects with slightly increased baseline concentrations. Phytosterols and phytostanols lower LDL cholesterol by displacing cholesterol from mixed micelles in the small intestine so that cholesterol absorption is partially inhibited. Cholesterol absorption and synthesis have been carefully evaluated during phytosterol and phytostanol supplementation. However, only a few lipoprotein kinetic studies have been performed, and they revealed that LDL apoprotein B-100 transport rate was reduced. LDL particle size was unchanged, but small dense LDL cholesterol concentration was reduced. In subjects with metabolic syndrome and moderate hypertriglyceridemia, phytostanols reduced not only non- high density lipoprotein (HDL) cholesterol concentration but also serum triglycerides by 27%, and reduced the large and medium size very low density lipoprotein particle concentrations. In the few postprandial studies, the postprandial lipoproteins were reduced, but detailed studies with apoprotein B-48 are lacking. In conclusion, more kinetic studies are required to obtain a more complete understanding of the fasting and postprandial lipoprotein metabolism caused by phytosterols and phytostanols. It seems obvious, however, that the most atherogenic lipoprotein particles will be diminished.

The effects of plant stanol ester consumption on arterial stiffness and endothelial function in adults: a randomised controlled clinical trial

BackgroundThe hypocholesterolemic effect of plant stanol ester consumption has been studied extensively, but its effect on cardiovascular health has been less frequently investigated. We studied the effects of plant stanol esters (staest) on arterial stiffness and endothelial function in adults without lipid medication.MethodsNinety-two asymptomatic subjects, 35 men and 57 women, mean age of 50.8±1.0 years (SEM) were recruited from different commercial companies. It was randomized, controlled, double-blind, parallel trial and lasted 6 months. The staest group (n=46) consumed rapeseed oil-based spread enriched with staest (3.0 g of plant stanols/d), and controls (n=46) the same spread without staest. Arterial stiffness was assessed via the cardio-ankle vascular index (CAVI) in large and as an augmentation index (AI) in peripheral arteries, and endothelial function as reactive hyperemia index (RHI). Lipids and vascular endpoints were tested using analysis of variance for repeated measurements.ResultsAt baseline, 28% of subjects had a normal LDL cholesterol level (≤3.0 mmol/l) and normal arterial stiffness (<8). After the intervention, in the staest group, serum total, LDL, and non-HDL cholesterol concentrations declined by 6.6, 10.2, and 10.6% compared with controls (p<0.001 for all). CAVI was unchanged in the whole study group, but in control men, CAVI tended to increase by 3.1% (p=0.06) but was unchanged in the staest men, thus the difference in the changes between groups was statistically significant (p=0.023). AI was unchanged in staest (1.96±2.47, NS) but increased by 3.30±1.83 in controls (p=0.034) i.e. the groups differed from each other (p=0.046). The reduction in LDL and non-HDL cholesterol levels achieved by staest was related to the improvement in RHI (r=−0.452, p=0.006 and −0.436, p=0.008).ConclusionsLowering LDL and non-HDL cholesterol by 10% with staest for 6 months reduced arterial stiffness in small arteries. In subgroup analyses, staest also had a beneficial effect on arterial stiffness in large arteries in men and on endothelial function. Further research will be needed to confirm these results in different populations.Trial registrationClinical Trials Register # NCT01315964

F-18-fluorodeoxyglucose positron emission tomography-guided sampling of mediastinal lymph nodes in the diagnosis of cardiac sarcoidosis.

Histologic proof of granulomatous inflammation is prerequisite for the diagnosis of cardiac sarcoidosis (CS). Because of the limited sensitivity of endomyocardial biopsy (EMB), confirmation of sarcoidosis often has to be acquired from extracardiac biopsies. We set out to review our experience of F-18-fluorodeoxyglucose positron emission tomography (F-18-FDG PET) in guiding extracardiac tissue biopsies in suspected CS. We included in this work 68 consecutive patients with proved CS who had undergone cardiac F-18-FDG PET with (n = 57) or without whole-body imaging as part of initial diagnostic evaluation. Their hospital charts, imaging studies, and diagnostic biopsies were reviewed in retrospect. Whole-body PET images showed extracardiac foci of abnormally high F-18-FDG uptake in 39 of 57 patients, of whom 38 had involvement of mediastinal lymph nodes (MLN). Parallel F-18-FDG uptake was found in other lymph nodes (n = 10), lungs (n = 9), liver (n = 3), spleen (n = 2), and thyroid gland (n = 1). Adding the mediastinal findings at cardiac PET without whole-body imaging, abnormal F-18-FDG uptake in MLN was found in totally 43 of the 68 patients with CS (63%). Histology of systemic sarcoidosis was known at presentation of cardiac symptoms in 8 patients. Of the 60 patients with missing histology, 24 patients underwent mediastinoscopy for sampling of PET-positive MLN, most often (n = 20) after nondiagnostic EMB; microscopy revealed diagnostic noncaseating granulomatous inflammation in 24 of the 24 cases (sensitivity 100%). In the remaining 36 patients, sarcoidosis histology was confirmed by EMB (n = 30), by biopsy of lungs (n = 2) or peripheral lymph nodes (n = 2), or at autopsy (n = 1) or post-transplantation (n = 1). In conclusion, MLN accumulate F-18-FDG at PET in most patients with CS and provide a highly productive source for diagnostic biopsies either primarily or subsequent to nondiagnostic EMB.

Low Childhood Cholesterol Absorption Predisposes to Gallstone Disease. The Cardiovascular Risk in Young Finns Study.

Objectives: Unraveling pathogenesis of gallstones could help to diminish its enormous disease burden. We hypothesized that certain properties of childhood cholesterol metabolism predict gallstone disease in adulthood. Methods: Childhood serum cholestanol and plant sterols (surrogates for cholesterol absorption), cholesterol precursors (surrogates for cholesterol synthesis), lipids, demographics, and dietary habits were compared between individuals diagnosed with gallstone disease subsequently in adulthood (n = 95) and control subjects (n = 190) matched for age, sex, and body mass index in 1980. Subjects were participants of prospective Cardiovascular Risk in Young Finns Study. Results: In 1980, at mean age of 11.4 years gallstone cohort was characterized by 5.8% lower cholestanol (P = 0.038), and 11.2% to 12.2% (P range = 0.003–0.008) lower plant sterols campesterol, sitosterol, and avenasterol compared with controls. Mean lathosterol/sitosterol ratio was 16.3% higher in gallstone compared with control cohort (P = 0.028). Female gallstone group had 5.4% lower mean cholestanol compared with controls (P < 0.05), and, respectively, those of campesterol, sitosterol, and avenasterol were 12.7% to 14.0% lower (P < 0.05 for each). Body mass index was inversely related to cholestanol and sitosterol (r range = −0.161 to −0.208, P < 0.05 for each) in controls, but not among patients with gallstone. In whole study population, surrogates of cholesterol absorption (eg, campesterol, P = 0.018) and low dietary intake of vegetables (P = 0.009) were significant predictors of gallstones in logistic regression model. Conclusions: Cholesterol metabolism trait characterized by low serum levels of surrogate markers of cholesterol absorption precedes adult gallstone disease already in childhood. Low serum cholestanol and plant sterol ratios during normal Western diet may have role as predictive biomarkers for gallstones.

Dietary plant stanols or sterols neither accumulate in stenotic aortic valves nor influence their structure or inflammatory status

BACKGROUND & AIMS Consumption of plant stanols and plant sterols decreases LDL cholesterol level and increases serum concentrations of plant stanols/sterols, but it is practically unexplored whether also their tissue concentrations increase. Thus, the aim of this study was to assess whether consuming plant stanols/sterols increases their concentrations in stenotic aortic valves and affect the valvular structure (collagen and elastin) or inflammation (macrophages and mast cells). METHODS In a randomized, double-blind controlled intervention patients with severe aortic stenosis consumed margarine without (n = 11) or with 2 g of plant stanols (n = 12) or sterols (n = 13) until valve replacement surgery (2.6 months, on average). The effects of sitostanol and sitosterol on the expression and secretion of proinflammatory cytokines by cultured aortic valve myofibroblasts were also assessed. RESULTS Control-related LDL-cholesterol was diminished by 16% (p < 0.05) by plant stanol and by 11% (NS) by plant sterol consumption, respectively. In the resected valves, cholesterol, plant stanol and sterol levels were similar in all groups. Consumed plant stanols or sterols had no effect on valvular structure or mast cell or macrophage numbers in valves. Incubation of cultured myofibroblasts derived from stenotic valves with sitostanol or sitosterol decreased mRNA expression of the monocyte chemotactic protein-1 (p < 0.05) and interleukin-1 beta (p < 0.05). CONCLUSIONS In this study, plant stanol/sterol consumption did not affect cholesterol, plant stanol or sterol levels in stenotic aortic valves; neither did they influence the structure or the inflammatory status of the valves. However, these findings need to be confirmed in a larger-scale intervention. ClinicalTrials.govRegister #NCT00738933.

Desmosterol accumulation in users of amiodarone

Amiodarone is an effective and widely used antiarrhythmic drug with many possible adverse effects including hypercholesterolaemia and hepatotoxicity.